Long-term analysis of glaciers and glacier lakes in the Central and Eastern Himalaya

• Published in: The Science of the total environment Vol. 898; p. 165598
• Main Authors: Agarwal, Vibhor, Van Wyk de Vries, Maximillian, Haritashya, Umesh K., Garg, Siddhi, Kargel, Jeffrey S., Chen, Ying-Ju, Shugar, Dan H.
• Format: Journal Article
• Language: English
• Published: Netherlands Elsevier B.V 10.11.2023
• Subjects: Central Himalaya; Debris cover; Eastern Himalaya; Glacier changes; Proglacial lakes; Proglacial lakes; Debris cover; Eastern Himalaya; Central Himalaya; Glacier changes
• ISSN: 0048-9697; 1879-1026
• DOI: 10.1016/j.scitotenv.2023.165598

Himalayan glaciers represent both an important source of water and a major suite of geohazards for inhabitants of their downstream regions. Recent climate change has intersected with local topographic, geomorphic, and glaciological factors to drive complex patterns of glacier thinning, retreat, velocity change, and lake development. In this study, we analyze the long-term variations in surface elevation change and velocity of the glaciers in the Central and Eastern Himalaya using existing and newly generated datasets spanning 1975 to 2018. We have used modelled (e.g., debris and ice thickness) and remote sensing datasets (e.g., Corona, Hexagon, and Landsat images) to investigate the impact of debris cover and the evolution of proglacial lakes on the glacier response in the region. We found that lake-terminating glaciers (lake TGs) have significantly higher thinning, velocity, and deceleration over time than land-terminating glaciers (land TGs). Lakes have shown an overall growth of 98 % in area and 40 % in number during 1975–2017. New proglacial lakes will likely continue to develop, and existing ones will keep expanding, influencing the frontal changes and dynamics of the lake-terminating glaciers. Debris-covered glaciers have undergone similar thinning compared to clean-ice glaciers, both for lake and land TGs; however, variations exist across the ablation zones between clean and debris-covered glaciers which this study further explores using a data-driven approach. Overall, the proglacial lakes development, changes in debris coverage, and topography significantly affect the glacier responses in the regions. [Display omitted] •Impact of growth of proglacial lakes, debris and other factors on glacier response monitored over a key Himalayan region.•Long-term ice velocity and proglacial lake inventory created.•Lake TGs exhibit rapid magnitude of thinning, velocity and deceleration over time than land TGs•Holistic analysis leveraging the remote sensing and modeling data for monitoring glaciers and lakes.